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ISA 5.1 Instrumentation Symbols and Identification

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AMERICAN NATIONAL STANDARD
ANSI/ISA–S5.1–1984 (R1992)
Instrumentation Symbols
and Identification
Reaffirmed 13 July 1992
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ANSI/ISA-S5.1 — Instrumentation Symbols and Identification
ISBN 0-87664-844-8
Copyright  1984 by the Instrument Society of America. All rights reserved. Printed in the United
States of America. No part of this publication may be reproduced, stored in a retrieval system, or
transmitted in any form or by any means (electronic, mechanical, photocopying, recording, or
otherwise), without the prior written permission of the publisher.
ISA
67 Alexander Drive
P.O. Box 12277
Research Triangle Park, North Carolina 27709
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Preface
This preface is included for information and is not a part of ANSI/ISA-S5.1.
This standard has been prepared as part of the service of ISA toward a goal of uniformity in the
field of instrumentation. To be of real value, this document should not be static, but should be
subject to periodic review. Toward this end, the Society welcomes all comments and criticisms,
and asks that they be addressed to the Secretary, Standards and Practices Board, ISA, 67
Alexander Drive, P.O. Box 12277, Research Triangle Park, NC 27709, Telephone (919) 5498411, e-mail: [email protected].
The ISA Standards and Practices Department is aware of the growing need for attention to the
metric system of units in general, and the International System of Units (SI) in particular, in the
preparation of instrumentation standards. The Department is further aware of the benefits to
U.S.A. users of ISA standards of incorporating suitable references to the SI (and the metric
system) in their business and professional dealings with other countries. Toward this end, this
Department will endeavor to introduce SI-acceptable metric units in all new and revised
standards to the greatest extent possible. The Metric Practice Guide, which has been published
by the Institute of Electrical and Electronics Engineers as ANSI/IEEE Std. 268-1982, and future
revisions will be the reference guide for definitions, symbols, abbreviations, and conversion
factors.
It is the policy of ISA to encourage and welcome the participation of all concerned individuals and
interests in the development of ISA standards. Participation in the ISA standards-making
process by an individual in no way constitutes endorsement by the employer of that individual, of
ISA, or of any of the standards that ISA develops.
The information contained in the preface, footnotes, and appendices is included for information
only and is not a part of the standard.
The instrumentation symbolism and identification techniques described in the standard
accommodate the advances in technology and reflect the collective industrial experience gained
since the publication of Recommended Practice RP5.1 in 1949.
This revision attempts to strengthen the standard in its role as a tool of communication in the
process industries. Communication presupposes a common language; or, at the very least, it is
facilitated by one. The standard offers the foundation for that common language.
When integrated into a system, the symbols and designations presented here form a concise,
dedicated language which communicates concepts, facts, intent, instructions, and knowledge
about measurement and control systems in the process industries.
This document is a consensus standard rather than a mandatory one. As such, it has many of
the strengths and the weaknesses of consensus standards. Its primary strength is that it can be
used in widespread, interdisciplinary ways. Its weakness is generally that of not being specific
enough to satisfy the special requirements of particular interest groups.
The symbols and identification contained in ISA-S5.1 have evolved by the consensus method
and are intended for wide application throughout the process industries. The symbols and
designations are used as conceptualizing aids, as design tools, as teaching devices, and as a
concise and specific means of communication on all types and kinds of technical, engineering,
procurement, construction, and maintenance documents.
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ANSI/ISA-S5.1-1984 (R 1992)
Copyright The Instrumentation, Systems, and Automation Society
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In the past, the standard has been flexible enough to serve all of the uses just described. In the
future, it must continue to do so. To this end, this revision offers symbols, identification, and
definitions for concepts that were not previously described; for example, shared display/control,
distributed control, and programmable control. Definitions were broadened to accommodate the
fact that, although similar functions are being performed by the new control systems, these
functions are frequently not related to a uniquely identifiable instrument; yet they still must be
conceptualized and identified. The excellent SAMA (Scientific Apparatus Makers Association)
method of functional diagramming was used to describe function blocks and function
designators. To help the batch processing industries, where binary (on-off) symbolism is
extremely useful, new binary line symbols were introduced and first-letter Y was selected to
represent an initiating variable which could be categorized as an event, presence, or state. In
general, breadth of application as opposed to narrowness has been emphasized.
The ISA Standards Committee on Instrumentation Symbols and Identification operates within the
ISA Standards and Practices Department, with William Calder III as vice president. The persons
listed below served as members of or advisors to the SP5.1 committee. The SP5.1 committee is
deeply appreciative of the work of previous SP5.1 committees and has tried to treat their work
with the respect it deserves. In addition, this committee would like to acknowledge the work of
the SP5.3 committee in developing ISA-S5.3, "Graphic Symbols for Distributed Control/Shared
Display Instrumentation, Logic and Computer Systems." The key elements of ISA-S5.3 have
been incorporated into ISA-S5.1, and it is the Society's intent to withdraw ISA-S5.3 after
publication of this revision of ISA-S5.1.
The following people served as members of ISA Committee SP5.1, which prepared this
standard:
NAME
COMPANY
R. Mulley, Chairman
E. J. Blahut
P. R. Boubel
J. P. Carew
N. Dogra
J. E. Doyle
C. R. Gross
T. E. Hamler
F. Horn
A. A. Iverson
A. Langelier
W. E. Mapes
T. C. McAvinew
W. L. Mostia
G. K. Pace
G. Platt*, Past Chairman
A. W. Reeve
S. Sankaran
R. M. Shah
D. G. Turnbull
R. von Brecht
G. Wilbanks
Fluor Engineers, Inc.
Blahut Engineering, Inc.
TXE, Inc.
Stone and Webster Engineering Corporation
ANK Engineers
Tweedcrest Limited
EXXON Company U.S.A.
Owens Corning Fiberglass Corporation
Allied Chemical Company
ARCO Chemical Company
Polaroid Corporation
Eastman Kodak Company
Vertech Treatment Systems
AMOCO Chemicals
Phelps Dodge Corporation
Bechtel Power Corporation
AWR Controls (Canada) Ltd.
McDermott Engineering
Olin Chemicals Corporation
Sandwell and Company, Limited
The M. W. Kellogg Company
The Rust Engineering Company
*Member Emeritus
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4
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The following people served as members of ISA Committee SP5:
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NAME
COMPANY
D. E. Rapley, Chairman
R. C. Greer
D. G. Kempfer
R. H. Kind
R. Mulley
T. J. Myron
Stearns Catalytic Corporation
Bailey Controls Company
Standard Oil Company of Ohio
El Paso Natural Gas Company
Fluor Engineers, Inc.
The Foxboro Company
This standard was approved for publication by the ISA Standards and Practices Board in
September 1984.
NAME
COMPANY
W. Calder III, Chairman
P. V. Bhat
N. L. Conger
B. Feikle
H. S. Hopkins
J. L. Howard
R. T. Jones
R. Keller
O. P. Lovett, Jr.
E. C. Magison
A. P. McCauley
J. W. Mock
E. M. Nesvig
R. Prescott
D. E. Rapley
W. C. Weidman
K. A. Whitman
P. Bliss*
B. A. Christensen*
L. N. Combs*
R. L. Galley*
T. J. Harrison*
R. G. Marvin*
W. B. Miller*
G. Platt*
J. R. Williams*
The Foxboro Company
Monsanto Company
Conoco
Bailey Controls Company
Westinghouse Electric Company
Boeing Aerospace Company
Philadelphia Electric Company
The Boeing Company
ISIS Corporation
Honeywell, Inc.
Chagrin Valley Controls, Inc.
Bechtel Corporation
ERDCO Engineering Corporation
Moore Products Company
Stearns Catalytic Corporation
Gilbert Commonwealth, Inc.
Consultant
Consultant
Contintental Oil Company
Retired
Consultant
IBM Corporation
Roy G. Marvin Company
Moore Products Company
Bechtel Power Corporation
Stearns Catalytic Corporation
*Director Emeritus
ANSI/ISA-S5.1-1984 (R 1992)
Copyright The Instrumentation, Systems, and Automation Society
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Contents
Title
Section Number
1
Purpose ........................................................................................................................ 9
2
Scope ............................................................................................................................ 9
2.1
General .............................................................................................................. 9
2.2
Application to industries .................................................................................... 9
2.3
Application to work activities ............................................................................. 9
2.4
Application to classes of instrumentation and to instrument functions ............ 10
2.5
Extent of functional identification ..................................................................... 10
2.6
Extent of loop identification ............................................................................. 10
3
Definitions .................................................................................................................. 10
4
Outline of the identification system ......................................................................... 13
4.1
General ............................................................................................................ 13
4.2
Functional identification ................................................................................... 14
4.3
Loop identification ........................................................................................... 15
4.4
Symbols ........................................................................................................... 16
5
Tables .......................................................................................................................... 17
6
Drawings .................................................................................................................... 27
6.1
Cautionary notes ............................................................................................. 27
6.2
Instrument line symbols ................................................................................... 28
6.3
General instrument or function symbols .......................................................... 29
6.4
Control valve body symbols, damper symbols ................................................ 31
6.5
Actuator symbols ............................................................................................. 32
6.6
Symbols for self-actuated regulators, valves, and other devices .................... 34
6.7
Symbols for actuator action in event of actuator power failure. ....................... 37
6.8
Primary element symbols ................................................................................ 38
6.9
Examples — functions ..................................................................................... 48
6.10
Examples — miscellaneous combinations ...................................................... 56
6.11
Example — complex combinations ................................................................. 61
6.12
Example — degree of detail ............................................................................ 62
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Copyright The Instrumentation, Systems, and Automation Society
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Section
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1 Purpose
The purpose of this standard is to establish a uniform means of designating instruments and
instrumentation systems used for measurement and control. To this end, a designation system
that includes symbols and an identification code is presented.
2 Scope
2.1 General
2.1.1 The procedural needs of various users are different. The standard recognizes these needs,
when they are consistent with the objectives of the standard, by providing alternative symbolism
methods. A number of examples are provided for adding information or simplifying the symbolism,
as desired.
2.1.2 Process equipment symbols are not part of this standard, but are included only to illustrate
applications of instrumentation symbols.
2.2 Application to industries
2.2.1 The standard is suitable for use in the chemical, petroleum, power generation, air conditioning, metal refining, and numerous other, process industries.
2.2.2 Certain fields, such as astronomy, navigation, and medicine, use very specialized instruments
that are different from the conventional industrial process instruments. No specific effort was made
to have the standard meet the requirements of those fields. However, it is expected that the standard
will be flexible enough to meet many of the needs of special fields.
2.3 Application to work activities
2.3.1 The standard is suitable for use whenever any reference to an instrument or to a control
system function is required for the purposes of symbolization and identification. Such references
may be required for the following uses, as well as others:
• Design sketches
• Teaching examples
• Technical papers, literature, and discussions
• Instrumentation system diagrams, loop diagrams, logic diagrams
• Functional descriptions
• Flow diagrams: Process, Mechanical, Engineering, Systems, Piping (Process) and
Instrumentation
• Construction drawings
• Specifications, purchase orders, manifests, and other lists
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• Identification (tagging) of instruments and control functions
• Installation, operating and maintenance instructions, drawings, and records
2.3.2 The standard is intended to provide sufficient information to enable anyone reviewing any
document depicting process measurement and control (who has a reasonable amount of process
knowledge) to understand the means of measurement and control of the process. The detailed
knowledge of a specialist in instrumentation is not a prerequisite to this understanding.
2.4 Application to classes of instrumentation and to instrument functions
The symbolism and identification methods provided in this standard are applicable to all classes
of process measurement and control instrumentation. They can be used not only to describe
discrete instruments and their functions, but also to describe the analogous functions of systems
which are variously termed "shared display," "shared control," "distributed control," and
"computer control."
2.5 Extent of functional identification
The standard provides for the identification and symbolization of the key functions of an
instrument. Additional details of the instrument are better described in a suitable specification,
data sheet, or other document intended for those requiring such details.
2.6 Extent of loop identification
The standard covers the identification of an instrument and all other instruments or control
functions associated with it in a loop. The user is free to apply additional identification — by
serial number, unit number, area number, plant number, or by other means.
3 Definitions
For the purpose of understanding this standard, the following definitions apply. For a more
complete treatment, see ISA-S51.1 and the ISA-S75 series of standards. Terms italicized in a
definition are also defined in this section.
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Accessible: A term applied to a device or function that can be used or be seen by an operator for
the purpose of performing control actions, e.g., set point changes, auto-manual transfer, or on-off
actions.
Alarm: A device or function that signals the existence of an abnormal condition by means of an
audible or visible discrete change, or both, intended to attract attention.
It is not recommended that the term alarm switch or alarm be used to designate a device whose
operation is simply to close or open a circuit that may or may not be used for normal or abnormal
interlock, start-up, shutdown, actuation of a pilot light or an alarm device, or the like. The first
device is properly designated as a level switch, a flow switch, etc., because "switching" is what
the device does. The device may be designated as an alarm only if the device itself contains the
alarm function. [See also Table 1, note (13).]
Assignable: A term applied to a feature permitting the channeling (or directing) of a signal from
one device to another without the need for switching, patching, or changes in wiring.
Auto-manual station : Synonym for control station.
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Balloon: Synonym for bubble.
Behind the panel: A term applied to a location that is within an area that contains (1) the
instrument panel, (2) its associated rack-mounted hardware, or (3) is enclosed within the panel.
Behind the panel devices are not accessible for the operator's normal use, and are not
designated as local or front-of-panel-mounted. In a very broad sense, "behind the panel" is
equivalent to "not normally accessible to the operator."
Binary: A term applied to a signal or device that has only two discrete positions or states. When
used in its simplest form, as in "binary signal" (as opposed to "analog signal"), the term denotes
an "on-off" or "high-low" state, i.e., one which does not represent continuously varying quantities.
Board: Synonym for panel.
Bubble: The circular symbol used to denote and identify the purpose of an instrument or
function. It may contain a tag number. Synonym for balloon.
Computing device: A device or function that performs one or more calculations or logic
operations, or both, and transmits one or more resultant output signals. A computing device is
sometimes called a computing relay.
Configurable: A term applied to a device or system whose functional characteristics can be
selected or rearranged through programming or other methods. The concept excludes rewiring
as a means of altering the configuration.
Controller: A device having an output that varies to regulate a controlled variable in a specified
manner. A controller may be a self-contained analog or digital instrument, or it may be the
equivalent of such an instrument in a shared-control system.
An automatic controller varies its output automatically in response to a direct or indirect input of a
measured process variable. A manual controller is a manual loading station, and its output is not
dependent on a measured process variable but can be varied only by manual adjustment.
A controller may be integral with other functional elements of a control loop.
Control station : A manual loading station that also provides switching between manual and
automatic control modes of a control loop. It is also known as an auto-manual station. In
addition, the operator interface of a distributed control system may be regarded as a control
station.
Control valve: A device, other than a common, hand-actuated ON-OFF valve or self-actuated
check valve, that directly manipulates the flow of one or more fluid process streams.
It is expected that use of the designation "hand control valve" will be limited to hand-actuated
valves that (1) are used for process throttling, or (2) require identification as an instrument.
Converter : A device that receives information in one form of an instrument signal and transmits
an output signal in another form.
An instrument which changes a sensor's output to a standard signal is properly designated as a
transmitter, not a converter. Typically, a temperature element (TE) may connect to a transmitter
(TT), not to a converter (TY).
A converter is also referred to as a transducer ; however, "transducer" is a completely general
term, and its use specifically for signal conversion is not recommended.
Digital: A term applied to a signal or device that uses binary digits to represent continuous
values or discrete states.
Distributed control system: A system which, while being functionally integrated, consists of
subsystems which may be physically separate and remotely located from one another.
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Final control element: The device that directly controls the value of the manipulated variable of
a control loop. Often the final control element is a control valve.
Function: The purpose of, or an action performed by, a device.
Identification: The sequence of letters or digits, or both, used to designate an individual
instrument or loop.
Instrument: A device used directly or indirectly to measure and/or control a variable. The term
includes primary elements, final control elements, computing devices, and electrical devices
such as annunciators, switches, and pushbuttons. The term does not apply to parts (e.g., a
receiver bellows or a resistor) that are internal components of an instrument.
Instrumentation: A collection of instruments or their application for the purpose of observation,
measurement, control, or any combination of these.
Local: The location of an instrument that is neither in nor on a panel or console, nor is it mounted
in a control room. Local instruments are commonly in the vicinity of a primary element or a final
control element. The word "field" is often used synonymously with local.
Local panel: A panel that is not a central or main panel. Local panels are commonly in the
vicinity of plant subsystems or sub-areas. The term "local panel instrument" should not be
confused with "local instrument."
Loop: A combination of two or more instruments or control functions arranged so that signals
pass from one to another for the purpose of measurement and/or control of a process variable.
Manual loading station : A device or function having a manually adjustable output that is used to
actuate one or more remote devices. The station does not provide switching between manual
and automatic control modes of a control loop (see controller and control station). The station
may have integral indicators, lights, or other features. It is also known as a manual station or a
manual loader.
Measurement: The determination of the existence or the magnitude of a variable.
Monitor : A general term for an instrument or instrument system used to measure or sense the
status or magnitude of one or more variables for the purpose of deriving useful information. The
term monitor is very unspecific — sometimes meaning analyzer, indicator, or alarm. Monitor can
also be used as a verb.
Monitor light: Synonym for pilot light.
Panel: A structure that has a group of instruments mounted on it, houses the operator-process
interface, and is chosen to have a unique designation. The panel may consist of one or more
sections, cubicles, consoles, or desks. Synonym for board.
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Panel-mounted: A term applied to an instrument that is mounted on a panel or console and is
accessible for an operator's normal use. A function that is normally accessible to an operator in a
shared-display system is the equivalent of a discrete panel-mounted device.
Pilot light: A light that indicates which of a number of normal conditions of a system or device
exists. It is unlike an alarm light, which indicates an abnormal condition. The pilot light is also
known as a monitor light.
Primary element: Synonym for sensor.
Process: Any operation or sequence of operations involving a change of energy, state,
composition, dimension, or other properties that may be defined with respect to a datum.
Process variable: Any variable property of a process. The term process variable is used in this
standard to apply to all variables other than instrument signals.
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Program: A repeatable sequence of actions that defines the status of outputs as a fixed
relationship to a set of inputs.
Programmable logic controller : A controller, usually with multiple inputs and outputs, that
contains an alterable program.
Relay: A device whose function is to pass on information in an unchanged form or in some
modified form. Relay is often used to mean computing device. The latter term is preferred.
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The term "relay" also is applied specifically to an electric, pneumatic, or hydraulic switch that is
actuated by a signal. The term also is applied to functions performed by a relay.
Scan: To sample, in a predetermined manner, each of a number of variables intermittently. The
function of a scanning device is often to ascertain the state or value of a variable. The device
may be associated with other functions such as recording and alarming.
Sensor: That part of a loop or instrument that first senses the value of a process variable, and
that assumes a corresponding, predetermined, and intelligible state or output. The sensor may
be separate from or integral with another functional element of a loop. The sensor is also known
as a detector or primary element.
Set point: An input variable that sets the desired value of the controlled variable. The set point
may be manually set, automatically set, or programmed. Its value is expressed in the same units
as the controlled variable.
Shared controller: A controller, containing preprogrammed algorithms that are usually
accessible, configurable, and assignable. It permits a number of process variables to be
controlled by a single device.
Shared display: The operator interface device (usually a video screen) used to display process
control information from a number of sources at the command of the operator.
Switch: A device that connects, disconnects, selects, or transfers one or more circuits and is not
designated as a controller, a relay, or a control valve. As a verb, the term is also applied to the
functions performed by switches.
Test point: A process connection to which no instrument is permanently connected, but which is
intended for the temporary or intermittent connection of an instrument.
Transducer: A general term for a device that receives information in the form of one or more
physical quantities, modifies the information and/or its form, if required, and produces a resultant
output signal. Depending on the application, the transducer can be a primary element,
transmitter, relay, converter or other device. Because the term "transducer" is not specific, its
use for specific applications is not recommended.
Transmitter: A device that senses a process variable through the medium of a sensor and has
an output whose steady-state value varies only as a predetermined function of the process
variable. The sensor may or may not be integral with the transmitter.
4 Outline of the identification system
4.1 General
4.1.1 Each instrument or function to be identified is designated by an alphanumeric code or tag
number as shown in Figure 1. The loop identification part of the tag number generally is common
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to all instruments or functions of the loop. A suffix or prefix may be added to complete the identification. Typical identification is shown in Figure 1.
TYPICAL TAG NUMBER
TIC 103
- Instrument Identification or Tag Number
T
103
- Loop Identification
103
- Loop Number
TIC
- Functional Identification
T
- First-letter
IC
- Succeeding-Letters
10-PAH-5A
- Tag Number
10
- Optional Prefix
A
- Optional Suffix
Note: Hyphens are optional as separators
Figure 1 — Tag numbers
4.1.2 The instrument loop number may include coded information, such as plant area designation.
It is also possible to set aside specific series of numbers to designate special functions; for instance,
the series 900 to 999 could be used for loops whose primary function is safety-related.
4.1.3 Each instrument may be represented on diagrams by a symbol. The symbol may be accompanied by a tag number.
4.2 Functional identification
4.2.1 The functional identification of an instrument or its functional equivalent consists of letters
from Table 1 and includes one first-letter (designating the measured or initiating variable) and one
or more succeeding-letters (identifying the functions performed).
4.2.2 The functional identification of an instrument is made according to the function and not
according to the construction. Thus, a differential-pressure recorder used for flow measurement
is identified by FR; a pressure indicator and a pressure-actuated switch connected to the output
of a pneumatic level transmitter are identified by LI and LS, respectively.
4.2.3 In an instrument loop, the first-letter of the functional identification is selected according to
the measured or initiating variable, and not according to the manipulated variable. Thus, a control
valve varying flow according to the dictates of a level controller is an LV, not an FV.
4.2.4 The succeeding-letters of the functional identification designate one or more readout or
passive functions and/or output functions. A modifying-letter may be used, if required, in addition
to one or more other succeeding-letters. Modifying-letters may modify either a first-letter or succeeding-letters, as applicable. Thus, TDAL contains two modifiers. The letter D changes the
measured variable T into a new variable, "differential temperature." The letter L restricts the readout
function A, alarm, to represent a low alarm only.
4.2.5 The sequence of identification letters begins with a first-letter selected according to Table 1.
Readout or passive functional letters follow in any order, and output functional letters follow these
in any sequence, except that output letter C (control) precedes output letter V (valve), e.g., PCV,
a self-actuated control valve. However, modifying-letters, if used, are interposed so that they are
placed immediately following the letters they modify.
14
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EXPANDED TAG NUMBER
4.2.6 A multiple function device may be symbolized on a diagram by as many bubbles as there
are measured variables, outputs, and/or functions. Thus, a temperature controller with a switch
may be identified by two tangent bubbles — one inscribed TIC-3 and one inscribed TSH-3. The
instrument would be designated TIC/TSH-3 for all uses in writing or reference. If desired, however,
the abbreviation TIC-3 may serve for general identification or for purchasing, while TSH-3 may be
used for electric circuit diagrams.
4.2.7 The number of functional letters grouped for one instrument should be kept to a minimum
according to the judgment of the user. The total number of letters within one group should not
exceed four. The number within a group may be kept to a minimum by:
1)
Arranging the functional letters into subgroups. This practice is described in Section
4.2.6 for instruments having more than one measured variable or input, but it may
also be used for other instruments.
2)
Omitting the I (indicate) if an instrument both indicates and records the same
measured variable.
4.2.8 All letters of the functional identification are uppercase.
4.3 Loop identification
4.3.1 The loop identification consists of a first-letter and a number. Each instrument within a loop
has assigned to it the same loop number and, in the case of parallel numbering, the same firstletter. Each instrument loop has a unique loop identification. An instrument common to two or
more loops should carry the identification of the loop which is considered predominant.
4.3.2 Loop numbering may be parallel or serial. Parallel numbering involves starting a numerical
sequence for each new first-letter, e.g., TIC-100, FRC-100, LIC-100, AI-100, etc. Serial numbering
involves using a single sequence of numbers for a project or for large sections of a project, regardless of the first-letter of the loop identification, e.g., TIC-100, FRC-101, LIC-102, Al-103, etc. A
loop numbering sequence may begin with 1 or any other convenient number, such as 001, 301 or
1201. The number may incorporate coded information; however, simplicity is recommended.
4.3.3 If a given loop has more than one instrument with the same functional identification, a suffix
may be appended to the loop number, e.g., FV-2A, FV-2B, FV-2C, etc., or TE-25-1, TE-25-2, etc.
However, it may be more convenient or logical in a given instance to designate a pair of flow
transmitters, for example, as FT-2 and FT-3 instead of FT-2A and FT-2B. The suffixes may be
applied according to the following guidelines:
1)
An uppercase suffix letter should be used, i.e., A, B, C, etc.
2)
For an instrument such as a multipoint temperature recorder that prints numbers for
point identification, the primary elements may be numbered TE-25-1, TE-25-2, TE25-3, etc., corresponding to the point identification number.
3)
Further subdivisions of a loop may be designated by serially alternating suffix letters
and numbers. (See Section 6.9R(3).)
4.3.4 An instrument that performs two or more functions may be designated by all of its functions.
For example, a flow recorder FR-2 with a pressure pen PR-4 may be designated FR-2/PR-4. A
two-pen pressure recorder may be PR-7/8, and a common annunciator window for high and low
temperature alarms may be TAHL-21. Note that the slash is not necessary when distinctly separate
devices are not present.
4.3.5 Instrument accessories such as purge meters, air sets, and seal pots that are not explicitly
shown on a diagram but that need a designation for other purposes should be tagged individually
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according to their functions and should use the same loop identification as the instrument they
directly serve. Application of such a designation does not imply that the accessory must be shown
on the diagram. Alternatively, the accessories may use the identical tag number as that of their
associated instrument, but with clarifying words added. Thus an orifice flange union associated
with orifice plate FE-7 should be tagged FX-7, but may be designated FE-7 FLANGES. A purge
meter associated with pressure gauge PI-8 may be tagged PI-8 PURGE. A thermowell used with
thermometer TI-9 should be tagged TW-9, but may be tagged TI-9 THERMOWELL.
The rules for loop identification need not be applied to instruments and accessories that are
purchased in bulk quantities if it is the user's practice to identify these items by other means.
4.4 Symbols
4.4.1 The examples in this standard illustrate the symbols that are intended to depict instrumentation on diagrams and drawings. Methods of symbolization and identification are demonstrated.
The examples show identification that is typical for the pictured instrument or functional interrelationships. The symbols indicating the various instruments or functions have been applied in typical
ways in the illustrations. This usage does not imply, however, that the applications or designations
of the instruments or functions are restricted in any way. No inference should be drawn that the
choice of any of the schemes for illustration constitutes a recommendation for the illustrated methods of measurement or control. Where alternative symbols are shown without a statement of
preference, the relative sequence of symbols does not imply a preference.
4.4.2 The bubble may be used to tag distinctive symbols, such as those for control valves, when
such tagging is desired. In such instances, the line connecting the bubble to the instrument symbol
is drawn close to, but not touching, the symbol. In other instances, the bubble serves to represent
the instrument proper.
4.4.3 A distinctive symbol whose relationship to the remainder of the loop is easily apparent from
a diagram need not be individually tagged on the diagram. For example, an orifice flange or a
control valve that is part of a larger system need not be shown with a tag number on a diagram.
Also, where there is a primary element connected to another instrument on a diagram, use of a
symbol to represent the primary element on the diagram is optional.
4.4.4 A brief explanatory notation may be added adjacent to a symbol or line to clarify the function
of an item. For instance, the notations 3-9 psig and 9-15 psig adjacent to the signal lines to two
valves operating in split range, taken together with the symbols for the failure modes, allow complete
understanding of the intent. Similarly, when two valves are operated in a diverting or mixing mode
from a common signal, the notations 3-15 psig and 15-3 psig, together with the failure modes, allow
understanding of the function.
4.4.5 The sizes of the tagging bubbles and the miscellaneous symbols shown in the examples are
the sizes generally recommended; however, the optimum sizes may vary depending on whether
or not the finished diagram is to be reduced in size and depending on the number of characters
that are expected in the instrument tagging designation. The sizes of the other symbols may be
selected as appropriate to accompany the symbols of other equipment on a diagram.
4.4.6 Aside from the general drafting requirements for neatness and legibility, symbols may be
drawn with any orientation. Likewise, signal lines may be drawn on a diagram entering or leaving
the appropriate part of a symbol at any angle. However, the function block designators of Table 3
and the tag numbers should always be drawn with a horizontal orientation. Directional arrowheads
should be added to signal lines when needed to clarify the direction of flow of information. The
judicious use of such arrowheads, especially on complex drawings, will often facilitate understanding of the system.
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4.4.7 The electrical, pneumatic, or other power supply to an instrument is not expected to be shown
unless it is essential to an understanding of the operation of the instrument or the loop.
4.4.8 In general, one signal line will suffice to represent the interconnections between two instruments on flow diagrams even though they may be connected physically by more than one line.
4.4.9 The sequence in which the instruments or functions of a loop are connected on a diagram
should reflect the functional logic or information flow, although this arrangement will not necessarily
correspond to the signal connection sequence. Thus, an electronic loop using analog voltage
signals requires parallel wiring, while a loop using analog current signals requires series interconnections. However, the diagram in both instances should be drawn as though all the wiring were
parallel, to show the functional interrelationships clearly while keeping the presentation independent of the type of instrumentation finally installed. The correct interconnections are expected to
be shown on a suitable diagram.
4.4.11 It is common practice for engineering flow diagrams to omit the symbols of interlockhardware components that are actually necessary for a working system, particularly when symbolizing electric interlock systems. For example, a level switch may be shown as tripping a pump,
or separate flow and pressure switches may be shown as actuating a solenoid valve or other
interlock devices. In both instances, auxiliary electrical relays and other components may be
considered details to be shown elsewhere. By the same token, a current transformer sometimes
will be omitted and its receiver shown connected directly to the process — in this case the electric
motor.
4.4.12 Because the distinctions between shared display/shared control and computer functions
are sometimes blurred, in choosing symbols to represent them the user must rely on manufacturers'
definitions, usage in a particular industry, and personal judgment.
5 Tables
The purpose of Section 5, Tables, is to define certain of the building blocks of the identification
and symbolic representation system used in this standard in a concise, easily-referenced
manner.
Table 1, Identification Letters, together with the Notes for Table 1, define and explain the
individual letter designators used as functional identifiers in accordance with the rules of Section
4.2, Functional Identification.
Table 2, Typical Letter Combinations, attempts to facilitate the task of choosing acceptable
combinations of identifying letters.
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4.4.10 The degree of detail to be applied to each document or sketch is entirely at the discretion
of the user of the standard. The symbols and designations in this standard can depict both hardware
and function. Sketches and technical papers will usually contain highly simplified symbolism and
identification. Process flow diagrams will usually be less detailed than engineering flow diagrams.
Engineering flow diagrams may show all in-line components, but may differ from user to user in
the amount of off-line detail shown. In any case, consistency should be established for each
application. The terms simplified, conceptual, and detailed as applied to the diagrams of 6.12 were
chosen to represent a cross section of typical usage. Each user must establish the degree of detail
that fulfills the purposes of the specific document or sketch being generated.
Two omissions will be noted: The SAMA symbol for Transfer and that for an Analog Signal
Generator. Since the ultimate use of ISA-S5.1 symbolism usually requires identification to be
associated with a symbol, it is advisable to use the HIC (manual loader) bubble for an analog
signal generator and an HS (hand switch) with or without a relay bubble for a transfer function.
5.1 Notes for Table 1
1)
A "user's choice" letter is intended to cover unlisted meanings that will be used
repetitively in a particular project. If used, the letter may have one meaning as a firstletter and another meaning as a succeeding-letter. The meanings need to be defined
only once in a legend, or other place, for that project. For example, the letter N may
be defined as "modulus of elasticity" as a first-letter and "oscilloscope" as a
succeeding-letter.
2)
The unclassified letter X is intended to cover unlisted meanings that will be used only
once or used to a limited extent. If used, the letter may have any number of meanings
as a first-letter and any number of meanings as a succeeding-letter. Except for its
use with distinctive symbols, it is expected that the meanings will be defined outside
a tagging bubble on a flow diagram. For example, XR-2 may be a stress recorder
and XX-4 may be a stress oscilloscope.
3)
The grammatical form of the succeeding-letter meanings may be modified as required.
For example, "indicate" may be applied as "indicator" or "indicating," "transmit" as
"transmitter" or "transmitting," etc.
4)
Any first-letter, if used in combination with modifying letters D (differential), F (ratio),
M (momentary), K (time rate of change), Q (integrate or totalize), or any combination
of these is intended to represent a new and separate measured variable, and the
combination is treated as a first-letter entity. Thus, instruments TDI and TI indicate
two different variables, namely, differential-temperature and temperature. Modifying
letters are used when applicable.
5)
First-letter A (analysis) covers all analyses not described by a "user's choice" letter.
It is expected that the type of analysis will be defined outside a tagging bubble.
6)
Use of first-letter U for "multivariable" in lieu of a combination of first-letters is optional.
It is recommended that nonspecific variable designators such as U be used sparingly.
7)
The use of modifying terms "high," "low," "middle" or "intermediate," and "scan" is
optional.
8)
The term "safety" applies to emergency protective primary elements and emergency
protective final control elements only. Thus, a self-actuated valve that prevents
operation of a fluid system at a higher-than-desired pressure by bleeding fluid from
the system is a back-pressure-type PCV, even if the valve is not intended to be used
normally. However, this valve is designated as a PSV if it is intended to protect against
emergency conditions, i.e., conditions that are hazardous to personnel and/or
equipment and that are not expected to arise normally.
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Table 3, Function Blocks - Function Designations, is an adaptation of the SAMA (Scientific
Apparatus Manufacturers Association) method of functional diagramming. Two basic uses are
found for these symbols: as stand-alone function blocks on conceptual diagrams, or as flags
which designate functions performed by bubbles on more detailed drawings. A third use is a
combination of the first two and is found in shared control systems where, for instance, the
measured variable signal line enters a square root function block that is drawn adjacent to a
shared controller.
The designation PSV applies to all valves intended to protect against emergency
pressure conditions regardless of whether the valve construction and mode of operation place them in the category of the safety valve, relief valve, or safety relief
valve. A rupture disc is designated PSE.
9)
The passive function G applies to instruments or devices that provide an uncalibrated
view, such as sight glasses and television monitors.
10)
"Indicate" normally applies to the readout—analog or digital—of an actual
measurement. In the case of a manual loader, it may be used for the dial or setting
indication, i.e., for the value of the initiating variable.
11)
A pilot light that is part of an instrument loop should be designated by a first-letter
followed by the succeeding-letter L. For example, a pilot light that indicates an expired
time period should be tagged KQL. If it is desired to tag a pilot light that is not part
of an instrument loop, the light is designated in the same way. For example, a running
light for an electric motor may be tagged EL, assuming voltage to be the appropriate
measured variable, or YL, assuming the operating status is being monitored. The
unclassified variable X should be used only for applications which are limited in extent.
The designation XL should not be used for motor running lights, as these are
commonly numerous. It is permissible to use the user's choice letters M, N or O for
a motor running light when the meaning is previously defined. If M is used, it must
be clear that the letter does not stand for the word "motor," but for a monitored state.
12)
Use of a succeeding-letter U for "multifunction" instead of a combination of other
functional letters is optional. This nonspecific function designator should be used
sparingly.
13)
A device that connects, disconnects, or transfers one or more circuits may be either
a switch, a relay, an ON-OFF controller, or a control valve, depending on the
application.
If the device manipulates a fluid process stream and is not a hand-actuated ON-OFF block
valve, it is designated as a control valve. It is incorrect to use the succeeding-letters CV
for anything other than a self-actuated control valve. For all applications other than fluid
process streams, the device is designated as follows:
• A switch, if it is actuated by hand.
• A switch or an ON-OFF controller, if it is automatic and is the first such device in a loop.
The term "switch" is generally used if the device is used for alarm, pilot light, selection,
interlock, or safety.
• The term "controller" is generally used if the device is used for normal operating control.
• A relay, if it is automatic and is not the first such device in a loop, i.e., it is actuated by a
switch or an ON-OFF controller.
14)
It is expected that the functions associated with the use of succeeding-letter Y will be
defined outside a bubble on a diagram when further definition is considered
necessary. This definition need not be made when the function is self-evident, as for
a solenoid valve in a fluid signal line.
15)
The modifying terms "high," and "low," and "middle" or "intermediate" correspond to
values of the measured variable, not to values of the signal, unless otherwise noted.
For example, a high-level alarm derived from a reverse-acting level transmitter signal
should be an LAH, even though the alarm is actuated when the signal falls to a low
value. The terms may be used in combinations as appropriate. (See Section 6.9A.)
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The terms "high" and "low," when applied to positions of valves and other open-close
devices, are defined as follows: "high" denotes that the valve is in or approaching the
fully open position, and "low" denotes that it is in or approaching the fully closed
position.
17)
The word "record" applies to any form of permanent storage of information that permits
retrieval by any means.
18)
For use of the term "transmitter" versus "converter," see the definitions in Section 3.
19)
First-letter V, "vibration or mechanical analysis," is intended to perform the duties in
machinery monitoring that the letter A performs in more general analyses. Except
for vibration, it is expected that the variable of interest will be defined outside the
tagging bubble.
20)
First-letter Y is intended for use when control or monitoring responses are eventdriven as opposed to time- or time schedule-driven. The letter Y, in this position, can
also signify presence or state.
21)
Modifying-letter K, in combination with a first-letter such as L, T, or W, signifies a time
rate of change of the measured or initiating variable. The variable WKIC, for instance,
may represent a rate-of-weight-loss controller.
22)
Succeeding-letter K is a user's option for designating a control station, while the
succeeding-letter C is used for describing automatic or manual controllers. (See
Section 3, Definitions.)
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16)
Table 1 — Identification Letters
FIRST-LETTER (4)
MEASURED OR
INITIATING
VARIABLE
MODIFIER
SUCCEEDING-LETTERS (3)
READOUT OR
PASSIVE
FUNCTION
OUTPUT FUNCTION
A
Analysis (5,19)
Alarm
B
Burner, Combustion
User's Choice (1)
C
User's Choice (1)
D
User's Choice (1)
E
Voltage
F
Flow Rate
G
User's Choice (1)
H
Hand
I
Current (Electrical)
J
Power
Scan (7)
K
Time, Time Schedule
Time Rate of Change
(4, 21)
L
Level
M
User's Choice (1)
N
User's Choice (1)
User's Choice (1)
O
User's Choice (1)
Orifice, Restriction
P
Pressure, Vacuum
Point (Test)
Connection
Q
Quantity
R
Radiation
S
Speed, Frequency
T
Temperature
U
Multivariable (6)
V
Vibration, Mechanical
Analysis (19)
W
Weight, Force
X
Unclassified (2)
X Axis
Y
Event, State or
Presence (20)
Y Axis
Relay, Compute,
Convert (13, 14, 18)
Z
Position, Dimension
Z Axis
Driver, Actuator,
Unclassified Final
Control Element
User's Choice (1)
MODIFIER
User's Choice (1)
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Control (13)
Differential (4)
Sensor (Primary
Element)
Ratio (Fraction) (4)
Glass, Viewing
Device (9)
High (7, 15, 16)
Indicate (10)
Control Station (22)
Light (11)
Low (7, 15, 16)
Momentary (4)
Middle,
Intermediate (7,15)
User's Choice (1)
User's Choice (1)
Integrate, Totalize (4)
Record (17)
Safety (8)
Switch (13)
Transmit (18)
Multifunction (12)
Multifunction (12)
Multifunction (12)
Valve, Damper,
Louver (13)
Well
Unclassified (2)
Unclassified (2)
Unclassified (2)
NOTE: Numbers in parentheses refer to specific explanatory notes in Section 5.1.
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User’s Choice
Hand
Current
Power
Time
Level
User’s Choice
User’s Choice
User’s Choice
Pressure/
Vacuum
Pressure,
Differential
Quantity
Radiation
Speed/Frequency
Temperature
Temperature,
Differential
G
H
I
J
K
L
M
N
O
P
PD
Q
R
S
T
TD
Position/Dimension
Gauging/Deviation
Y
Z
ZD
ZDRC
ZRC
WDRC
WRC
TDRC
TRC
SRC
RRC
QRC
PDRC
PRC
LRC
KRC
JRC
IRC
FFRC
FQRC
FRC
ERC
BRC
ARC
Recording
ZDIC
ZIC
YIC
WDIC
WIC
TDIC
TIC
SIC
RIC
QIC
PDIC
PIC
LIC
KIC
JIC
IIC
HIC
FFIC
FQIC
FIC
EIC
BIC
AIC
Indicating
**The letters H and L may be omitted in the undefined case.
ZDC
ZC
YC
WDC
WC
TDC
TC
SC
RC
PDC
PC
LC
KC
HC
FFC
FC
EC
BC
AC
Blind
Controllers
Note: This table is not all-inclusive.
*A, alarm, the annunciating device, may be used in the same
fashion as S, switch, the actuating device.
Unclassified
Event/State/Presence
X
Weight/Force,
Differential
Flow Ratio
FF
Weight/Force
Flow Quantity
FQ
WD
Flow Rate
F
W
Voltage
E
Vibration/Machinery
Analysis
User’s Choice
D
Multivariable
User’s Choice
C
V
Burner/Combustion
B
U
Analysis
A
Initiating
Firstor
Letters Measured Vaiable
5.3
ZDCV
ZCV
WDCV
WCV
TDCV
TCV
SCV
PDCV
PCV
LCV
KCV
FCV,
FICV
SelfActuated
Control
Valves
AI
ZDI
ZI
YI
WDI
WI
VI
UI
TDI
TI
SI
RI
QI
PDI
PI
LI
KI
JI
II
FFI
FQI
FI
EI
BI
ZDSH
ZSH
YSH
WDSH
WSH
VSH
TDSH
TSH
SSH
RSH
QSH
PDSH
PSH
LSH
KSH
JSH
ISH
FFSH
FQSH
FSH
ESH
BSH
ASH
High**
ZDRT
ZRT
WDRT
WRT
VRT
TDRT
TRT
SRT
RRT
QRT
PDRT
PRT
LRT
KRT
JRT
IRT
FRT
ERT
BRT
ART
ZDIT
ZIT
WDIT
WIT
VIT
TDIT
TIT
SIT
RIT
QIT
PDIT
PIT
LIT
KIT
JIT
IIT
FQIT
FIT
EIT
BIT
AIT
Recording Indicating
Transmitters
ZDT
ZT
YT
WDT
WT
VT
TDT
TT
ST
RT
QT
PDT
PT
LT
KT
JT
IT
FQT
FT
ET
BT
AT
ZDY
ZY
YY
WDY
WY
VY
UY
TDY
TY
SY
RY
QY
PDY
PY
LY
KY
JY
IY
FQY
FY
EY
BY
AY
ZDE
ZE
YE
WE
WE
VE
TE
TE
SE
RE
QE
PE
PE
LE
KE
JE
IE
FE
FQE
FE
EE
BE
AE
Solenoids,
Relays,
Computing Primary
Blind Devices
Element
(Ratio)
(Running Time Indicator)
(Indicating Counter)
(Rate-of-Weight-Loss Controller)
(Hand Momentary Switch)
ZSHL
WSHL
VSHL
TSHL
SSHL
RSHL
QSHL
PSHL
LSHL
KSHL
JSHL
ISHL
HS
FSHL
ESHL
BSHL
ASHL
Comb
PFR
KQI
QQI
WKIC
HMS
ZDSL
ZSL
YSL
WDSL
WSL
VSL
TDSL
TSL
SSL
RSL
QSL
PDSL
PSL
LSL
KSL
JSL
ISL
FFSL
FQSL
FSL
ESL
BSL
ASL
Low
Switches and
Alarm Devices*
Other Possible Combinations:
FO
(Restriction Orifice)
FRK, HIK
(Control Stations)
FX
(Accessories)
TJR
(Scanning Recorder)
LLH
(Pilot Light)
ZDR
ZR
YR
WDR
WR
VR
UR
TDR
TR
SR
RR
QR
PDR
PR
LR
KR
JR
IR
FFR
FQR
FR
ER
BR
AR
Recording Indicating
Readout Devices
Table 2 — Typical Letter Combinations
--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
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TP
TP
PP
PP
FP
AP
Test
Point
TW
TW
RW
LW
BW
AW
LG
FG
BG
Well
Viewing
or
Device,
Probe Glass
TSE
PSV,
PSE
Safety
Device
ZDV
ZV
YZ
WDZ
WZ
VZ
UV
TDV
TV
SV
RZ
QZ
PDV
PV
LV
KV
JV
IZ
HV
FFV
FQV
FV
EZ
BZ
AV
Final
Element
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23
5.4
6
AND PERMITS THE FUNCTION TO BE USED AS A STAND-ALONE BLOCK ON CONCEPTUAL DESIGNS.
A BOX AVOIDS CONFUSION BY SETTING OFF THE SYMBOL FROM OTHER MARKINGS ON A DIAGRAM
RELAYS MAY BE USED INDIVIDUALLY OR IN COMBINATION (ALSO, SEE TABLE 1, NOTE 14.). THE USE OF
THE FUNCTION DESIGNATIONS ASSOCIATED WITH CONTROLLERS, COMPUTING DEVICES, CONVERTERS AND
Table 3 — Function Blocks - Function Designations
5.4 Table 3 — Continued
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5.4 Table 3 — Continued
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5.4 Table 3 — Continued
26
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6 Drawings
6.1 Cautionary notes
1)
If a given drawing, or set of drawings, uses graphic symbols that are similar or identical
in shape or configuration and that have different meanings because they are taken
from different standards, then adequate steps must be taken to avoid misinterpretation
of the symbols used. These steps may be to use caution notes, reference notes,
comparison charts that illustrate and define the conflicting symbols, or other suitable
means. This requirement is especially critical in cases where symbols taken from
different disciplines are intermixed and their misinterpretation might cause danger to
personnel or damage to equipment.
2)
The titles Simplified Diagrams, Conceptual Diagrams and Detailed Diagrams of
Section 6.12 were chosen to represent a cross section of symbol usage, not any
particular generic document. (See 4.4.10 for a more complete discussion.)
3)
The line symbols of Section 6.2 offer "user's choice" alternative electrical symbols
and optional binary symbols. The subsequent examples use one consistent set of
these alternatives and apply the binary options. This was done for consistency of
appearance of the standard.
--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
It is recommended that the user choose either the dashed line electrical symbol or
the triple cross hatch symbol and apply it consistently. The optional binary (on-off)
symbols are available for those applications where the user finds it necessary to
distinguish between analog and binary signals. If, in the user's judgment, the application does not require such differentiation, the reverse slash may be omitted
from on-off signal line symbols. Consistency is recommended on a given set of
documents.
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6.2 Instrument line symbols
ALL LINES TO BE FINE IN RELATION TO PROCESS PIPING LINES.
28
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6.3 General instrument or function symbols
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6.3 General instrument or function symbols (contd.)
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30
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6.4 Control valve body symbols, damper symbols
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6.5 Actuator symbols
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32
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6.5 Actuator symbols (contd.)
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6.6 Symbols for self-actuated regulators, valves, and other devices
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34
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--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
6.6 Symbols for self-actuated regulators, valves, and other devices (contd.)
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6.6 Symbols for self-actuated regulators, valves, and other devices (contd.)
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36
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6.7 Symbols for actuator action in event of actuator power failure (shown typically
for diaphragm-actuated control valve).
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6.8 Primary element symbols
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38
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6.8 Primary element symbols (contd.)
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6.8 Primary element symbols (contd.)
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40
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6.8 Primary element symbols (contd.)
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6.8 Primary element symbols (contd.)
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42
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6.8 Primary element symbols (contd.)
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6.8 Primary element symbols (contd.)
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44
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6.8 Primary element symbols (contd.)
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6.8 Primary element symbols (contd.)
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46
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6.8 Primary element symbols (contd.)
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6.9 Examples — functions
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6.9 Examples — functions (contd.)
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6.9 Examples — functions (contd.)
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6.9 Examples — functions (contd.)
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6.9 Examples — functions (contd.)
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6.9 Examples — functions (contd.)
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6.9 Examples — functions (contd.)
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--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
6.9 Examples — functions (contd.)
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6.10 Examples — miscellaneous combinations
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6.10 Examples — miscellaneous combinations (contd.)
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6.10 Examples — miscellaneous combinations (contd.)
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6.10 Examples — miscellaneous combinations (contd.)
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6.10 Examples — miscellaneous combinations (contd.)
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6.11 Example — complex combinations
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6.12 Example — degree of detail*
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6.12 Example — degree of detail (contd.)*
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6.12 Example — degree of detail (contd.)*
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Index
Term
Para. No.
-A-
--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
Accessible
definition .............................. 3
graphic symbols ................... 6.3
Actuator
actuator action...................... 6.7
graphic symbols ................... 6.5
identification ......................... 5.1
Air Supply
identification ......................... 6.2
Alarm
definition............................... 3
examples .............................. 6.9
identification ......................... 5.1
Analysis
examples .............................. 6.8
identification ......................... 5.1
Assignable
definition............................... 3
Auto-Manual Station
(Control Station)
definition............................... 3
identification ......................... 5.1
Auxiliary Location
graphic symbol ..................... 6.3
Averaging
graphic symbol ..................... 5.4
-BBalloon, Bubble
definition............................... 3
graphic symbol ..................... 6.3
Behind-the-Panel
definition............................... 3
graphic symbol ..................... 6.3
Bias
graphic symbol ..................... 5.4
Term
Para. No.
Binary
definition............................... 3
graphic symbol .....................6.2
Board (Panel)
definition............................... 3
identification .........................6.3
Burner, Combustion
example................................6.8
identification .........................5.1
-CComplex Combinations
example................................6.11
Computer Function
graphic symbol .....................6.3
Computing Device
definition............................... 3
example................................6.9
function................................. 5.4
identification .........................5.1
Conceptual Diagrams
example................................6.12
Conductivity (see Analysis)
example................................6.8
Configurable
definition............................... 3
Controller
definition............................... 3
Control
example................................6.9
identification .........................5.1
Control Station
(Auto-Manual Station)
definition............................... 3
example................................6.9
identification .........................5.1
Control Valve
definition............................... 3
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--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
Term
Para. No.
graphic symbols ................... 6.4
identification ......................... 5.1
self-actuated......................... 6.6
Converter
definition............................... 3
graphic symbols ................... 5.4
Current (Electrical)
graphic symbols ................... 6.8
identification ......................... 5.1
-DDamper
graphic symbol ..................... 6.4
Data Link
graphic symbol ..................... 6.2
Density
example................................ 6.8
Derivative
graphic symbol ..................... 5.4
Detailed Diagrams
example................................ 6.12
Diaphragm Seal
graphic symbol ..................... 6.3
Difference
graphic symbol ..................... 5.4
Differential
examples .............................. 6.6, 6.9
identification ......................... 5.1
Digital
definition............................... 3
graphic symbol ..................... 6.5
Dimension
identification ......................... 5.1
Discrete Instruments
graphic symbol ..................... 6.3
Distributed Control System
definition............................... 3
Dividing
graphic symbol ..................... 5.4
Driver
example................................ 6.9
identification ......................... 5.1
-EElectric Binary Signal
Term
Para. No.
graphic symbol .....................6.2
Electric Signal
graphic symbols ................... 6.2
Electric Supply
identification .........................6.2
Electrohydraulic
graphic symbol .....................6.5
Electromagnetic Signal
graphic symbols ................... 6.2
Event
identification .........................5.1
Exponential
graphic symbol .....................5.4
-FField Mounted (Local)
graphic symbol .....................6.3
Final Control Element
definition............................... 3
identification .........................5.1
Flow Rate
graphic symbols ................... 6.8
identification .........................5.1
Force
example................................6.8
identification .........................5.1
Frequency
identification .........................5.1
Function
definition............................... 3
examples .............................. 6.9
graphic symbols ................... 6.3
identification .........................5.1, 5.4
Function Blocks
identification .........................5.4
Fusible Plug
example................................6.6
-GGas Supply
identification .........................6.2
Glass (Viewing Device)
example................................6.9
graphic symbols ................... 6.8
identification .........................5.1
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Term
Para. No.
-HHand (Manually Actuated)
example................................ 6.9
graphic symbols ................... 6.6
identification ......................... 5.1
Hand Wheel
graphic symbol ..................... 6.5
High
identification ......................... 5.1
High Limiting
graphic symbol ..................... 5.4
High Selecting
graphic symbol ..................... 5.4
Hydraulic Signal
graphic symbol ..................... 6.2
Hydraulic Supply
identification ......................... 6.2
-IIdentification
combinations example ......... 5.3
definition............................... 3
letters ................................... 5.1
Indicate
example................................ 6.9
identification ......................... 5.1
Instrument
definition............................... 3
Instrument Air
identification ......................... 6.2
Instrumentation
definition............................... 3
Instrument Line Symbols ........... 6.2
Integral
graphic symbol ..................... 5.4
Integrate
example................................ 6.9
identification ......................... 5.1
Interlock
example................................ 6.9
graphic symbol ..................... 6.3
-LLetter Combinations................... 5.3
Term
Para. No.
Level
graphic symbol .....................6.8, 6.6
identification .........................5.1
Light
example................................6.9
graphic symbol .....................6.3
identification .........................5.1
Local (Field)
definition............................... 3
graphic symbol .....................6.3
Local Panel
definition............................... 3
identification .........................6.3
Loop
definition............................... 3
identification .........................4.3
Louver
see Damper
Low
example................................6.9
identification .........................5.1
Low Limiting
graphic symbol .....................5.4
Low Selecting
graphic symbol .....................5.4
-MManual Loading Station
definition............................... 3
Measurement
definition............................... 3
Mechanical Analysis
identification .........................5.1
Mechanical Link
graphic symbol .....................6.2
Middle (Intermediate)
identification .........................5.1
Moisture
see Analysis
Momentary
identification .........................5.1
Monitor
definition............................... 3
--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
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--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
Term
Para. No.
Multifunction
example................................ 6.9
identification ......................... 5.1
Multiplying
graphic symbol ..................... 5.4
Multivariable
graphic symbols ................... 6.8
identification ......................... 5.1
-NNitrogen Supply
identification ......................... 6.2
Non-Linear
graphic symbol ..................... 5.4
-OOrifice
identification ......................... 5.1
Orifice Plate Taps
graphic symbols ................... 6.8
-PPanel (Board)
(Primary Location)
definition............................... 3
graphic symbols ................... 6.3
Panel-Mounted
(Board-Mounted)
definition............................... 3
graphic symbols ................... 6.3
Pilot Light
definition............................... 3
graphic symbol ..................... 6.3
identification ......................... 5.1
Plant Air
identification ......................... 6.2
Pneumatic Binary Signal
graphic symbol ..................... 6.2
Pneumatic Signal
graphic symbol ..................... 6.2
Point (Test)
example................................ 6.9
identification ......................... 5.1
Position
graphic symbol ..................... 6.8
identification ......................... 5.1
Term
Para. No.
Power
graphic symbol .....................6.8
identification ........................ 5.1
Presence
identification .........................5.1
Pressure Relief Valves
see Safety Relief Valves
Pressure (or Vacuum)
graphic symbols ................... 6.6, 6.8
identification .........................5.1
Print
example................................6.9
Primary Element (Sensor)
definition............................... see Sensor
graphic symbols ................... 6.8
Process
definition............................... 3
Process Variable
definition............................... 3
Program
definition............................... 3
Programmable Logic
Controller
definition............................... 3
example................................6.10, 6.11
graphic symbol .....................6.3
Proportional
graphic symbol .....................5.4
Purge
example................................6.10
graphic symbol .....................6.3
-QQuantity
examples .............................. 6.9
graphic symbols ................... 6.8
identification .........................5.1
-RRadiation
graphic symbol .....................6.8
Ratio
example................................6.9
identification .........................5.1
68
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Term
Para. No.
graphic symbols ................... 6.3
Sight Glass
graphic symbol .....................6.6
Signal Monitor
graphic symbol .....................5.4
Simplified Diagram
example................................6.12
Solenoid
graphic symbol .....................6.5
Specific Gravity
example................................6.8
Speed
identification .........................5.1
Steam Supply
identification .........................6.2
Straightening Vane
graphic symbol .....................6.6
Summing
graphic symbol .....................5.4
Switch
definition............................... 3
example................................6.9
identification .........................5.1
-TTemperature
graphic symbols ................... 6.8
identification .........................5.1
Test Point
definition............................... 3
example................................6.9
identification .........................5.1
Time Function
graphic symbol ..................... 5.4
Time Rate of Change
identification .........................5.1
Time, Time Schedule
graphic symbols ................... 6.8
identification .........................5.1
Totalize
see Integrate
Transducer
definition............................... 3
Transmitter
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Term
Para. No.
Record
example................................ 6.9
identification ......................... 5.1
Relay
definition............................... 3
examples .............................. 6.9
graphic symbols ................... 5.4
Relief Valve
see Safety Relief Valve
Reset
graphic symbol ..................... 6.3
Restriction Orifice
graphic symbol ..................... 6.6
Reverse Proportional
graphic symbol ..................... 5.4
Root Extraction
graphic symbol ..................... 5.4
Rupture Disc
graphic symbols ................... 6.6
-SSafety
identification ......................... 5.1
Safety Purging
example................................ 6.10
Safety Relief Valves
graphic symbols ................... 6.6
Scan
definition............................... 3
example................................ 6.9
identification ......................... 5.1
Self-Actuated Devices
graphic symbols ................... 6.6
identification ......................... 4.2.5
Sensor (Primary Element)
definition............................... 3
graphic symbols ................... 6.8
Set Point
definition............................... 3
Shared Controller
definition............................... 3
graphic symbols ................... 6.3
Shared Display
definition .............................. 3
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- ZZ-Axis
identification .........................5.1
--``,`,`,,,,`,,,,`,```,``````,`-`-`,,`,,`,`,,`---
Term
Para. No.
definition............................... 3
example................................ 6.9
identification ......................... 5.1
Traps
example................................ 6.6
Typical Letter
Combinations ....................... 5.3
-UUnclassified
identification ......................... 5.1
Undefined Signal
graphic symbols ................... 6.2
User's Choice
examples .............................. 6.8
identification ......................... 5.1
-VVacuum
see Pressure
Valve
see Control Valve
Velocity Limiter
graphic symbol ..................... 5.4
Vibration
identification ......................... 5.1
Voltage
graphic symbols ................... 6.8
identification ......................... 5.1
-WWater Supply
identification ......................... 6.2
Weight
identification ......................... 5.1
Well
graphic symbols ................... 6.8
identification ......................... 5.1
-XX-Axis
identification ......................... 5.1
-YY-Axis
identification ......................... 5.1
70
Copyright The Instrumentation, Systems, and Automation Society
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ANSI/ISA-S5.1-1984 (R 1992)
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Copyright The Instrumentation, Systems, and Automation Society
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No reproduction or networking permitted without license from IHS
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Developing and promulgating technically sound consensus standards,
recommended practices, and technical reports is one of ISA's primary
goals. To achieve this goal the Standards and Practices Department
relies on the technical expertise and efforts of volunteer committee
members, chairmen, and reviewers.
ISA is an American National Standards Institute (ANSI) accredited
organization. ISA administers United States Technical Advisory
Groups (USTAGs) and provides secretariat support for International
Electrotechnical Commission (IEC) and International Organization for
Standardization (ISO) committees that develop process measurement
and control standards. To obtain additional information on the
Society's standards program, please write:
ISA
Attn: Standards Department
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P.O. Box 12277
Research Triangle Park, NC 27709
ISBN: 0-87664-844-8
Copyright The Instrumentation, Systems, and Automation Society
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